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Alloy Digest, 1962
Abstract Boron Stainless Steel is a wrought austenitic alloy serving the atomic energy field in vital reactor shielding and control applications. This datasheet provides information on composition, physical properties, hardness, elasticity, and tensile properties.
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Abstract Boron Stainless Steel is a wrought austenitic alloy serving the atomic energy field in vital reactor shielding and control applications. This datasheet provides information on composition, physical properties, hardness, elasticity, and tensile properties.
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Boron Constituents in Low-boron Steel
Nature, 1963IT has been demonstrated by autoradiography that, in steel and related alloys containing boron, this element sometimes segregates to grain boundaries of the matrix. This has to be taken into account when considering the damaging effect of neutron irradiation, boron-10 capturing neutrons and emitting lithium and helium.
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Boronizing of high-alloy steels
Metal Science and Heat Treatment of Metals, 19611. The possibility of gas boronizing of high-alloy steels, including austenitic steels has been demonstrated. 2. It is shown that, during boronizing of high-alloy steels, a two-phase layer is produced in the early stages at the treatment temperature: a saturated solid solution (borides) followed by formation of a solid boride layer.
Yu. M. Lakhtin, M. A. Pchelkina
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Powder Metallurgy, 1979
The increase in wear resistance is in both cases attributable to the materials deposited on the surface. In methods of Type (a) the base material is participating only to the extent that it must form a sufficiently firm bond with the wearresistant layer. An example of this type of method is the flame-spraying of hard materials. For Type (b) methods the
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The increase in wear resistance is in both cases attributable to the materials deposited on the surface. In methods of Type (a) the base material is participating only to the extent that it must form a sufficiently firm bond with the wearresistant layer. An example of this type of method is the flame-spraying of hard materials. For Type (b) methods the
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Autoradiographic study on boronized steel
Materials Science and Engineering, 1983Abstract In the present work, boronized AISI-SAE 1042 steel has been studied by α autoradiography. These results were further supported by optical metallography, hardness measurements and X-ray micro-analysis of cross sections of the borided samples.
N. Bozkurt, A.E. Geçkinli, M. Geçkinli
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Mechanical properties of boronized AISI W4 steel
Surface and Coatings Technology, 2002Abstract A series of experiments was performed to evaluate some mechanical properties of boronized AISI W4 steel. Boronizing was carried out in a solid medium consisting of EKabor powders at 850, 950 and 1050°C for 2, 4, 6 and 8 h. After boronizing, FeB and Fe 2 B phases were formed on the surface of the steel substrate.
Özbek, İbrahim, Bindal, Cuma
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PIII-nitriding of boron implantated stainless steel
Surface and Coatings Technology, 2001Abstract In this report we present results of nitrogen PIII into 50 keV boron implanted austenitic stainless steel at 400°C and 40 kV. A surface layer of 90 nm consisting of expanded austenite (γN1 — lattice expansion 6.5%) and ferrite as well as containing 30 at.% B was found. This layer was followed by another one containing expanded austenite with
Mändl, S. +5 more
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2014
Abstract This article provides a detailed discussion on the effect of boron in heat-treated steel and thermomechanically-simulated steel. It describes the boron hardenability mechanism and the effect of composition and heat treatment parameters on boron hardenability.
Anjana Deva, Bimal Kumar Jha
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Abstract This article provides a detailed discussion on the effect of boron in heat-treated steel and thermomechanically-simulated steel. It describes the boron hardenability mechanism and the effect of composition and heat treatment parameters on boron hardenability.
Anjana Deva, Bimal Kumar Jha
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Rapid spectrophotometric determination of boron in steel
Talanta, 1970A rapid spectrophotometric method is presented for the determination of boron in steel by use of the fluoborate-Methylene Blue complex. The method is in principle similar to that of Rosotte, but modifications simplify the operation, obviate contamination and avoid problems with emulsion formation.
O P, Bhargava, W G, Hines
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Optimization of Cr12MoV Steel Boronizing Technology
Advanced Materials Research, 2011Boride layer was formed on the surface of Cr12MoV after being treated by boronizing technology, and it has high hardness, excellent high temperature oxidation resistance and other characteristics so the boronizing process are widely used in the heat treatment technology of mold and wear-resistant workpiece.
Jing Chen, An Jie Yang, Shao Xiang Hao
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